Heating and cooling of extrusion tool for additive manufacturing

1. A three dimensional (3D) printer system comprising: a build platform; a carriage configured to hold different manufacturing tools, including an extrusion tool; a rack configured to hold the different manufacturing tools, including the extrusion tool, when not mounted on the carriage; a heating device associated with the extrusion tool; a 3D motion system coupled with the carriage and configured to move the carriage between the rack and a build space associated with the build platform, and to move the carriage within the build space associated with the build platform; one or more computer storage media having instructions stored thereon; and one or more data processing apparatus configured to execute the instructions to perform operations comprising identifying a first point in a manufacturing process when the extrusion tool will be mounted on the carriage and in position to extrude material in the build space, determining a second point, which precedes the first point in the manufacturing process, when the extrusion tool will be located on the rack, wherein a time between the second point and the first point in the manufacturing process is determined in accordance with the material to be extruded by the extrusion tool, and triggering the heating device to begin pre-heating the extrusion tool at the second point before mounting of the extrusion tool to the carriage by the 3D motion system, such that the material in the extrusion tool is melted by the first point in the manufacturing process; wherein the heating device is integrated with the extrusion tool, the system comprises a cooling device associated with the extrusion tool, and the one or more data processing apparatus are configured to execute the instructions to perform operations comprising triggering the cooling device to reduce a temperature of the extrusion tool when the extrusion tool is relocated on the rack after use of the extrusion tool in the manufacturing process; wherein the one or more data processing apparatus are configured to execute the instructions to perform operations comprising: identifying a third point after the first point in the manufacturing process when use of the extrusion tool will end and the extrusion tool will be relocated on the rack; determining a fourth point, which succeeds the third point in the manufacturing process, when the extrusion tool will be relocated on the rack, wherein a time between the third point and the fourth point in the manufacturing process is determined in accordance with the material extruded by the extrusion tool and the temperature of the extrusion tool during the material extrusion; and operating the cooling device until the fourth point in the manufacturing process to reduce the temperature of the extrusion tool; wherein the one or more data processing apparatus are configured to execute the instructions to determine the fourth point by performing operations comprising repeatedly recalculating a cooling equation using actively collected temperature measurements.

2. The 3D printer system of claim 1 , wherein the extrusion tool reaches a target temperature just before arriving in the position to extrude the material in the build space.

3. The 3D printer system of claim 1 , wherein the heating device is coupled with the rack.

4. The 3D printer system of claim 3 , wherein the heating device is a Peltier device.

5. The 3D printer system of claim 3 , wherein the rack comprises a temperature sensor.

6. The 3D printer system of claim 1 , wherein the rack is coupled with the 3D motion system and moves along with at least one axis of the 3D printer system.

7. The 3D printer system of claim 1 , wherein the one or more data processing apparatus are configured to execute the instructions to determine the second point by performing operations comprising repeatedly recalculating a heating equation using actively collected temperature measurements.

8. The 3D printer system of claim 1 , wherein the cooling device is coupled with the rack.

9. The 3D printer system of claim 1 , wherein the extrusion tool comprises a melt zone and a heat sink, the melt zone is upstream from an aperture of a nozzle of the extrusion tool, the heat sink is upstream from the melt zone, and the cooling device is configured to actively cool the heat sink, the nozzle, or both.

10. The 3D printer system of claim 9 , wherein the cooling device comprises a fan.

11. The 3D printer system of claim 9 , wherein the cooling device comprises a Peltier device positioned on the rack to make contact with the heat sink, the nozzle, or both, when the extrusion tool is relocated on the rack.

12. The 3D printer system of claim 1 , wherein the extrusion tool comprises at least a hot end of a Fused Filament Fabrication (FFF) extruder assembly.

13. A method comprising: identifying a first point in a manufacturing process when an extrusion tool will be mounted on a carriage and in position to extrude material in a build space; determining a second point, which precedes the first point in the manufacturing process, when the extrusion tool will be located on a rack, wherein a time between the second point and the first point in the manufacturing process is determined in accordance with the material to be extruded by the extrusion tool; and triggering a heating device to begin pre-heating the extrusion tool at the second point before mounting of the extrusion tool to the carriage, such that the material in the extrusion tool is melted by the first point in the manufacturing process; triggering a cooling device to reduce a temperature of the extrusion tool when the extrusion tool is relocated on the rack after use of the extrusion tool in the manufacturing process; identifying a third point after the first point in the manufacturing process when use of the extrusion tool will end and the extrusion tool will be relocated on the rack; determining a fourth point, which succeeds the third point in the manufacturing process, when the extrusion tool will be relocated on the rack, wherein a time between the third point and the fourth point in the manufacturing process is determined in accordance with the material extruded by the extrusion tool and the temperature of the extrusion tool during the material extrusion; and operating the cooling device until the fourth point in the manufacturing process to reduce the temperature of the extrusion tool; wherein determining the fourth point comprises repeatedly recalculating a cooling equation using actively collected temperature measurements.

14. The method of claim 13 , wherein the extrusion tool reaches a target temperature just before arriving in the position to extrude the material in the build space.

15. The method of claim 13 , wherein determining the second point comprises repeatedly recalculating a heating equation using actively collected temperature measurements.

16. A non-transitory computer-readable medium encoding instructions that cause a data processing apparatus associated with a three dimensional (3D) printer system to perform operations comprising: identifying a first point in a manufacturing process when an extrusion tool will be mounted on a carriage and in position to extrude material in a build space; determining a second point, which precedes the first point in the manufacturing process, when the extrusion tool will be located on a rack, wherein a time between the second point and the first point in the manufacturing process is determined in accordance with the material to be extruded by the extrusion tool; and triggering a heating device to begin pre-heating the extrusion tool at the second point before mounting of the extrusion tool to the carriage, such that the material in the extrusion tool is melted by the first point in the manufacturing process; triggering a cooling device to reduce a temperature of the extrusion tool when the extrusion tool is relocated on the rack after use of the extrusion tool in the manufacturing process; identifying a third point after the first point in the manufacturing process when use of the extrusion tool will end and the extrusion tool will be relocated on the rack; determining a fourth point, which succeeds the third point in the manufacturing process, when the extrusion tool will be relocated on the rack, wherein a time between the third point and the fourth point in the manufacturing process is determined in accordance with the material extruded by the extrusion tool and the temperature of the extrusion tool during the material extrusion; and operating the cooling device until the fourth point in the manufacturing process to reduce the temperature of the extrusion tool; wherein determining the fourth point comprises repeatedly recalculating a cooling equation using actively collected temperature measurements.